ftp.nice.ch/pub/next/games/card/Zenda.NIHS.bs.tar.gz#/Zenda/Source/Player/Random.m

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//
// Random
//
// <<See the file Random.h for more information>>.
//
// Version 1.0, 1991 May 30
//
// Written by Gregor Purdy
// gregor@oit.itd.umich.edu
//
// See the README and COPYING files included for
// information and distribution and usage rights. 
//


#import <sys/time.h>
#import "Random.h"


@implementation Random

- init
{
    [super init];			// Make a new instance using superclass' method
    [self newSeeds];			// Get a new seed for ourselves
	
    return self;
}

- initSeeds:(int)s1 :(int)s2 :(int)s3
{
    [super init];
    [self setSeeds:s1 :s2 :s3];

    return self;
}

- newSeeds
{
    struct timeval theTime;		// gettimeofday return structure
	
    gettimeofday(&theTime,0);		// Get the time of day in seconds and microseconds
    h1 = theTime.tv_usec;		// Set seed 1 by microseconds past second
    gettimeofday(&theTime,0);		// Get the time of day in seconds and microseconds
    h2 = theTime.tv_usec;		// Set seed 2 by microseconds past second
    gettimeofday(&theTime,0);		// Get the time of day in seconds and microseconds
    h3 = theTime.tv_usec;		// Set seed 3 by microseconds past second

    return self;	
}

- setSeeds:(int) s1 :(int) s2 :(int) s3
{
    h1 = s1;				// Set the seeds to the values given
    h2 = s2;
    h3 = s3;
    
    return self;
}

- getSeeds:(int *)s1 :(int *)s2 :(int *)s3
{
    if((s1 == NULL) || (s2 == NULL) || (s3 == NULL))
	return nil;

    *s1 = h1;
    *s2 = h2;
    *s3 = h3;

    return self;
}

//
// See the Source article for the explanations of these constants
//
#define M1	32771
#define M2	32779
#define M3	32783
#define F1	179
#define F2	183
#define F3	182

#define MAXNUM	32767
#define RANGE	32768

- (int) rand
{
    h1 = (F1 * h1) % M1;			// Update the sections
    h2 = (F2 * h2) % M2;
    h3 = (F2 * h3) % M3;
    
    if ((h1 > MAXNUM) || (h2 > MAXNUM) || (h3 > MAXNUM))	// If a section is out of range,
        return [self rand];			//   return next result
    else					// Otherwise,
        return (h1 + h2 + h3) % RANGE;		//   Return this result
}

- (int) randMax:(int)max
{
    return (int)((float)[self rand] / (float)RANGE * (float)(max + 1));
}

- (int) randMin:(int)min max:(int)max
{
    return min + [self randMax:(max - min)];
}

- (float) percent
{
    return ((float)[self rand] / (float)RANGE);
}

- (int) rollDie:(int) numSides
{
    return [self randMax:(numSides - 1)] + 1;
}

- (int) roll:(int) numRolls die:(int) numSides
{
    int temp = 0;
    int loop;
	
    for (loop = 1 ; loop <= numRolls ; loop++ )
	temp += [self rollDie:numSides];
	
    return temp;
}

- (int) rollBest:(int)numWanted of:(int)numRolls die:(int)numSides
{
    int temp[numRolls];				// Array of rolls
    int loop1;					// First loop control variable
    int loop2;					// Second loop control variable
    int highest;				// Index of highest found roll
    int accumulator = 0;			// Accumulates total best roll
	
    for (loop1 = 1 ; loop1 <= numRolls ; loop1++)	// Fill an array with rolls
	temp[loop1] = [self rollDie:numSides];
	
    for (loop1 = 1 ; loop1 <= numWanted; loop1++) {
	highest = 1;				// Start off as if first is highest
	for (loop2 = 2 ; loop2 <= numRolls ; loop2++)	// Scan array for higher rolls
	    if (temp[loop2] > temp[highest])	// If temp[loop2] is higher, then
		highest = loop2;		//     remember that fact
	accumulator += temp[highest];		// Add highest roll to accumulator
	temp[highest] = 0;			// Clear highest roll so we don't find it again
    }
	
    return accumulator;				// Return what we found
}

- read:(NXTypedStream *)stream
{
    [super read:stream];
    
    NXReadTypes(stream, "iii", &h1, &h2, &h3);
    
    return self;
}

- write:(NXTypedStream *)stream
{
    [super write:stream];
    
    NXWriteTypes(stream, "iii", &h1, &h2, &h3);

    return self;
}


@end


//
// End of file.
//

These are the contents of the former NiCE NeXT User Group NeXTSTEP/OpenStep software archive, currently hosted by Netfuture.ch.